Chapter 5 Weathering, Soil, and Mass Movements
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1 Chapter 5 Weathering, Soil, and Mass Movements Section 1 Weathering Key Concepts What is mechanical weathering? What is chemical weathering? What factors affect the rate of weathering? Vocabulary mechanical weathering frost wedging talus exfoliation chemical weathering Earth s surface is constantly changing. Internal forces gradually raise some parts of the surface through mountain building and volcanic activity. At the same time, external processes continually break rock apart and move the debris to lower elevations, as shown in Figure 1. The breaking down and changing of rocks at or near Earth s surface is called weathering. Weathering is a basic part of the rock cycle and a key process in the Earth system. There are two types of weathering mechanical and chemical. Though these processes are different, they are at work at the same time. Figure 1 Weathering Ice, rain, and wind are slowly breaking down the rock in this mountain. The rock fragments accumulate in sloped deposits at the base of the mountain. Mechanical Weathering Mechanical weathering occurs when physical forces break rock into smaller and smaller pieces without changing the rock s mineral composition. Each piece has the same characteristics as the original rock. Breaking a rock into smaller pieces increases the total surface area of the rock. Look at Figure 2. When rock is broken apart, more surface area is exposed to chemical weathering. In nature, three physical processes are especially important causes of mechanical weathering: frost wedging, unloading, and biological activity.
2 Figure 2 By breaking a rock into smaller pieces, mechanical weathering increases the rock s surface area that can be exposed to chemical weathering. Calculating Calculate the total surface area if each of the 64 cubes shown in the right diagram were broken into 8 equal-sized cubes. Frost Wedging When liquid water freezes, it expands by about 9 percent, exerting a tremendous outward force. This force is great enough to burst water pipes during the winter. In nature, water works its way into every crack in rock. When water freezes and expands, it enlarges the cracks. After many freeze-thaw cycles, the rock breaks into pieces. This process, which is shown in Figure 3, is called frost wedging. Frost wedging is most common in mountainous regions in the middle latitudes. Here daily freezing and thawing often occur. Sections of rock that are wedged loose may tumble into large piles called talus, which typically form at the base of steep, rocky cliffs. Figure 3 Frost Wedging Rainwater entered cracks in this boulder. Each time the water froze, it expanded. Eventually, the boulder split. Unloading Large masses of igneous rock may be exposed through uplift and erosion of overlying rocks. When that happens, the pressure exerted on the igneous rock is reduced. This is known as unloading. As illustrated in Figure 4A, unloading causes the outer layers of the rock to expand more than the rock below. Slabs of outer rock separate like the layers of an onion and break loose in a process called exfoliation. Exfoliation is especially common in rock masses made of granite. It often produces large, dome-shaped rock formations. Figure 4B shows one of these formations. Other important exfoliation domes are Stone Mountain, Georgia, and Liberty Cap also in Yosemite National Park.
3 Figure 4 Unloading and Exfoliation A Uplift and erosion expose a buried mass of igneous rock. Reduced pressure on the rock, called unloading, causes the outer rock layers to expand. They separate from the rest of the rock mass. This process is called exfoliation. B The granite layers of Half Dome in Yosemite National Park, California, are undergoing exfoliation. A striking example of the weathering effects of unloading is shown in deep underground mining. Newly cut mine tunnels suddenly reduce the pressure on the surrounding rock. As a result, large rock slabs sometimes explode off the walls of the tunnels. Figure 5 The roots of this tree are causing mechanical weathering by widening the cracks in the rock. Biological Activity The activities of organisms, including plants, burrowing animals, and humans, can also cause mechanical weathering. As Figure 5 shows, plant roots grow into cracks in rock, wedging the rock apart as they grow. Burrowing animals move rocks to the surface, where weathering is more rapid. Decaying organisms produce compounds called acids that cause chemical weathering. Humans accelerate mechanical weathering through deforestation and blasting in search of minerals or in the creation of new roads. Chemical Weathering Chemical weathering is the transformation of rock into one or more new compounds. The new compounds remain mostly unchanged as long as the environment in which they formed does not change. You can contrast chemical weathering and mechanical weathering with a sheet of paper. Tearing the paper into small pieces is like mechanical weathering of rock. Burning the paper, which changes it into carbon dioxide and water, is like chemical weathering. Water Water is the most important agent of chemical weathering. Water promotes chemical weathering by absorbing gases from the atmosphere and the ground. These dissolved substances then chemically react with various minerals. Oxygen dissolved in water reacts easily with certain minerals, forming oxides. For example, iron-rich
4 minerals get a yellow to reddish-brown coating of iron oxide when they react with oxygen. Iron oxide is the rust that forms when iron-containing objects are exposed to water. Figure 6A shows this rust on barrels. Figure 6 A Oxygen reacted with the iron in these barrels, forming iron oxide, or rust. B This granite gravestone, placed in 1868, shows little evidence of chemical weathering. C The inscription date (1872) on this marble gravestone is nearly illegible due to chemical weathering. Water absorbs carbon dioxide when rain falls through the atmosphere. Water that seeps through the ground also picks up carbon dioxide from decaying organic matter. The carbon dioxide dissolved in water forms carbonic acid. This is the weak acid in carbonated soft drinks. Carbonic acid reacts with many common minerals. Water in the atmosphere also absorbs sulfur oxides and nitrogen oxides. These oxides are produced by the burning of coal and petroleum. Through a series of chemical reactions, these pollutants are converted into acids that are the major cause of acid precipitation. Acid precipitation accelerates the chemical weathering of stone monuments and structures, such as the one shown in Figure 7. Figure 7 One Effect of Acid Precipitation Acid precipitation contributed to the chemical weathering of this stone building facade in Leipzig, Germany. Chemical Weathering of Granite To illustrate how chemical weathering can change the properties of rock, let s consider granite. Recall that granite consists mainly of the minerals feldspar and quartz. When granite is exposed to water containing carbonic acid, the feldspar is converted mostly to clay minerals. Quartz, in contrast, is much more resistant to carbonic acid and remains unchanged. As the feldspar slowly changes to clay, the quartz grains are released from the granite. Rivers transport some of this weathered debris to the sea. The tiny clay particles may be carried far from shore. The quartz grains are deposited near the shore where they become the main component of beaches and sand dunes. Chemical Weathering of Silicate Minerals Recall that silicate minerals make up most of Earth s crust and are composed largely of just eight elements.when silicate minerals undergo chemical weathering, the sodium, calcium, potassium, and magnesium they contain dissolve and are carried away by groundwater. Iron reacts with oxygen, producing iron oxide. The three remaining elements are aluminum, silicon, and oxygen. These elements usually combine with water and produce clay minerals. See Table 1 for a list of products of weathering.
5 Spheroidal Weathering Chemical weathering can change the physical shape of rock as well as its chemical composition. For example, when water enters along the joints in a rock, it weathers the corners and edges most rapidly. These parts of the rock have a greater surface area than the faces have. As a result, the corners and edges become more rounded. The rock takes on a spherical shape, as shown in Figure 8A. This process is called spheroidal weathering. As Figure 8B shows, spheroidal weathering sometimes causes the outer layers of a rock to separate from the rock s main body. This can happen when the minerals in the rock turn to clay, which swells by adding water. The swelling exerts a force that causes the layers to break loose and fall off. This allows chemical weathering to penetrate deeper into the boulder. Although the effects of this type of spheroidal weathering resemble exfoliation, the two processes are different. Spheroidal weathering is a form of chemical weathering. Exfoliation is caused by unloading. The layers that separate from the rock are not chemically changed. Figure 8 Spheroidal Weathering A The edges of these granite rocks in California s Joshua Tree National Monument were rounded through spheroidal weathering. B Spheroidal weathering has caused the outer layers of this rock to loosen and separate. Rate of Weathering Mechanical weathering affects the rate of chemical weathering. By breaking rock into smaller pieces, mechanical weathering accelerates chemical weathering by increasing the surface area of exposed rock. Two other factors that affect the rate of weathering are rock characteristics and climate. Rock Characteristics Physical characteristics of rock, such as cracks, are important in weathering because they influence the ability of water to penetrate rock. However, a rock s mineral composition also dramatically affects its rate of weathering. You can see this by visiting a cemetery and comparing old gravestones made from different rock types. Gravestones made of granite, like the one in Figure 6B on page 129, are relatively resistant to chemical weathering. You can easily read the inscriptions on a granite gravestone that is over 100 years old. In contrast, marble gravestones undergo much more rapid chemical weathering, as shown in Figure 6C on page 129. Marble is composed of calcite (calcium carbonate), which easily dissolves even in weak acids.
6 Silicates are the most abundant mineral group. Silicates weather in the same sequence as their order of crystallization. Olivine crystallizes first and weathers most rapidly. Quartz, which crystallizes last, is the most resistant to weathering. Climate Climatic factors, especially temperature and moisture, have a strong effect on the rate of weathering. For example, these factors control the frequency of freeze-thaw cycles, which affect the amount of frost wedging. Temperature and moisture also affect the rate of chemical weathering. They influence the kind of vegetation and how much is present. Regions with lush vegetation generally have a thick layer of soil rich in decaying organic matter that releases acids into the water. The climate most favorable for chemical weathering has high temperatures and abundant moisture. So, chemical weathering is very slow in arid regions. It is also slow in polar regions because the low temperatures there keep moisture locked up as ice. Differential Weathering Different parts of a rock mass often weather at different rates. This process, called differential weathering, has several causes. Differences in mineral composition are one cause. More resistant rock protrudes as pinnacles, or high peaks, such as those shown in Figure 9. Another cause is the variations in the number and spacing of cracks in different parts of a rock mass. Figure 9 These boldly sculpted pinnacles in Bryce Canyon National Park show differential weathering. Drawing Conclusions In which parts of these formations is weathering happening most rapidly? Section 2 Soil Key Concepts What are the major components of soil? What are the most important factors in soil formation? How does soil vary with depth? What are three common types of soil? How do human activities affect the rate of soil erosion? Vocabulary regolith soil soil horizon soil profile pedalfer pedocal laterite
7 Soil, an important product of weathering, covers most land surfaces. Along with air and water, it is one of our most important resources. All life depends on a dozen or so elements that come from Earth s crust. Once weathering and other processes create soil, plants absorb the elements and make them available to animals, including humans. Characteristics of Soil Weathering produces a layer of rock and mineral fragments called regolith, which covers nearly all of Earth s land surface. Soil is the part of the regolith that supports the growth of plants. Three important characteristics of soil are its composition, texture, and structure. Soil Composition Soil has four major components: mineral matter, or broken-down rock; organic matter, or humus, which is the decayed remains of organisms; water; and air. The proportions of these components vary in different soils. Figure 10 shows that in a good-quality surface soil, mineral matter and organic matter make up half the total volume. The organic matter in soil, or humus, consists of the decayed remains of animal and plant life. The other half consists of pore spaces where air and water circulate. Figure 10 Composition by Volume of Good-Quality Soil Using Graphs What percentage of this soil consists of water and mineral matter? The percentage of organic matter in soil varies greatly. Certain bog soils are composed almost entirely of organic matter. Desert soils may contain only a tiny amount. In most soils, organic matter or humus is an essential component. It is an important source of plant nutrients and increases the soil s ability to retain water. Poor soils can be enriched with the addition of humus. The water and air components of soil are also vital for plant growth. Soil water provides the moisture needed for chemical reactions that sustain life. Soil water provides nutrients in a form that plants can use. Air is the source of the carbon dioxide plants use to produce sugar during photosynthesis. Soil Texture Most soils contain particles of different sizes. Soil texture refers to the proportions of different particle sizes. To classify soil texture, the U.S. Department of Agriculture has established categories based on the percentages of clay, silt, and sand in soil. The diagram in Figure 11 shows how the percentages differ for each category. For example, point A, near the left-center part of the diagram, represents a soil composed of 40 percent clay, 10 percent silt, and 50 percent sand. Such a soil is called a sandy clay. In soils called loam, which occupy the central part of the diagram, neither clay, silt, nor sand is dominant. Texture strongly influences a soil s ability to support plant life. Sandy soils may drain and dry out too quickly, while clay-rich soils drain very slowly. Plant roots often have difficulty penetrating soils that contain a high percentage of clay and silt. Loam soils are usually best for plant growth. They retain water better and store more nutrients than do soils composed mainly of clay or sand.
8 Figure 11 Soil-Texture Diagram The texture of any soil can be represented by a point on this diagram. Interpreting Diagrams What type of soil consists of 10 percent clay, 60 percent silt, and 30 percent sand? Soil Structure Soil particles usually form clumps that give soils a particular structure. Soil structure determines how easily a soil can be cultivated and how susceptible it is to erosion. Soil structure also affects the ease with which water can penetrate the soil. This, in turn, influences the movement of nutrients to plant roots. Soil Formation Soil forms through the complex interaction of several factors. The most important factors in soil formation are parent material, time, climate, organisms, and slope. Although these factors all interact, we ll examine them separately. Parent Material The source of the mineral matter in soil is known as the parent material. Notice in Figure 12 that parent material may be either bedrock or unconsolidated deposits, such as those in a river valley. The soil that forms on bedrock is called residual soil. The soil that forms on unconsolidated deposits is called transported soil. Its parent material was moved from another location by gravity, water, wind, or ice. Figure 12 Parent Materials and Soils The nature of the parent material influences soils in two ways. First, it affects the rate of weathering and the rate of soil formation. Because unconsolidated deposits are already partly weathered, they provide more surface area for chemical weathering. Therefore, transported soil usually develops more rapidly than residual soil develops. Second, the chemical makeup of the parent material affects the soil s fertility. Fertility influences the types of plants the soil can support. Time The longer a soil has been forming, the thicker it becomes. The parent material largely determines the characteristics of young soils. As weathering continues, however, the influence of the parent material can be overshadowed by the other factors, especially climate.
9 Climate Climate has the greatest effect on soil formation. Variations in temperature and precipitation influence the rate, depth, and type of weathering. For example, a hot, wet climate may produce a thick layer of chemically weathered soil. In the same amount of time, a cold, dry climate might produce only a thin layer of mechanically weathered debris. The amount of precipitation also influences soil fertility by affecting the rate at which nutrients are removed from the soil. Finally, climate has a big effect on the types of organisms that live on and in the soil. The influence of climate is so great that soil scientists have found that similar soils can be produced from different parent materials in the same climate. Dissimilar soils can be produced from the same parent material in different climates. Organisms The types of organisms and how many there are in a soil have a major impact on its physical and chemical properties. In fact, scientists name some soils such as prairie soil, forest soil, and tundra soil based on the soils natural vegetation. Plants are the main source of organic matter in soil. Animals and microorganisms may also contribute. Because organic matter releases nutrients when it decays, it contributes to soil fertility. As you read in Section 5.1, the decay of organic matter also produces acids that speed up weathering. Microorganisms, including fungi, bacteria, and single-celled protozoans, play an active role in decomposing dead plants and animals. Some bacteria also aid soil fertility by converting nitrogen gas into nitrogen compounds that plants can use. Burrowing animals mix the mineral and organic matter in soil. Earthworms, for example, feed on organic matter as they burrow through soil. The earthworms in a single hectare (10,000 square meters) can mix thousands of kilograms of soil each year. The holes made by burrowing animals also help water and air to penetrate into soil. Slope The slope of the land can vary greatly over short distances. Such variations can result in very different soil types. Many of the differences are related to the amount of erosion and the water content of the soil. On steep slopes, erosion is accelerated. Little water can soak in, so the soil generally holds too little moisture for vigorous plant growth. As a result, soils are usually thin or nonexistent on steep slopes, as shown in Figure 13A. In contrast, flat areas have little erosion and poor drainage. As Figure 13B shows, the waterlogged soils that form here are typically thick and dark. The dark color results from large amounts of organic matter. Figure 13 Slope and Soil Thickness A Little or no soil develops on steep slopes. B Flat areas often have very thick soil. The direction a slope faces also affects soil formation. In the temperate zone of the Northern Hemisphere, southfacing slopes receive much more sunlight than do north-facing slopes. Consequently, soils on south-facing slopes are usually warmer and drier. These differences may influence the types of plants that grow in the soil.
10 Although you have read about five separate factors that affect soil formation, remember that they all work together to form soil. No single factor is responsible for a soil s composition. The Soil Profile The processes that form soil operate from the surface downward. Soil varies in composition, texture, structure, and color at different depths. These variations divide the soil into zones known as soil horizons. A vertical section through all of the soil horizons is called a soil profile. In some soil profiles, the soil horizons blend gradually from one to another. In others, like the one shown in Figure 14A, the soil horizons are quite distinct. Mature soils usually have three distinct soil horizons, which are identified in Figure 14B. From the surface downward, these horizons are called the A, B, and C horizons. Figure 14 Soil Profiles A The A, B, and C horizons have different characteristics. B Three soil horizons are visible in this soil. Interpreting Photographs Using the diagram in B as a guide, identify the soil horizons in A. A Horizon The A horizon is commonly known as topsoil. Its upper part consists mostly of organic matter, including loose leaves and partly decomposed plant structures. It is teeming with insects, fungi, and microorganisms. The lower part of the A horizon is a mixture of mineral matter and organic matter. B Horizon The B horizon, or subsoil, contains fine clay particles washed out of the A horizon by water that filters through pore spaces. In some soils, the clay that accumulates in the B horizon forms a compact, impenetrable layer called hardpan. The B horizon is the lower limit of most plant roots and burrowing animals. C Horizon Between the B horizon and the unaltered parent material is the C horizon, which contains partially weathered parent material. While the A and B horizons barely resemble the parent material, the C horizon does. Soil Types Recall that climate is the most important factor in soil formation. Climate also has a major effect on the type of soil that forms. Three common types of soil are pedalfer, pedocal, and laterite. Pedalfer Pedalfers usually forms in temperate areas that receive more than 63 cm of rain each year. This soil type is present in much of the eastern half of the United States, most often in forested areas. The B horizon in pedalfers contains large amounts of iron oxide and aluminum-rich clays, giving it a brown to red-brown color.
11 Pedocal Pedocals are found in the drier western United States in areas that have grasses and brush vegetation. Because chemical weathering is slower in dry climates, pedocals generally contains less clay than pedalfers. Pedocals contain abundant calcite, or calcium carbonate, and are typically a light gray-brown. Laterite Laterites form in hot, wet tropical areas. Chemical weathering is intense under such conditions. So laterites are usually deeper than soils that develop over a similar period in temperate areas. The large quantity of water that filters through these soils removes most of the calcite and silica. Iron oxide and aluminum oxide are left behind. The iron oxide gives laterite a distinctive orange or red color. When dried, laterite becomes very hard and practically waterproof. For centuries, people in portions of South and Southeast Asia have made bricks by digging up laterite, shaping it, and allowing it to harden in the sun. Ancient structures built of laterite bricks, such as the one shown in Figure 15, are well preserved even today. Figure 15 The Temple at Angkor Wat, Cambodia This temple was constructed of laterite bricks between 1113 and Plants that die in a tropical rain forest decompose rapidly because bacterial activity is high in hot and wet climates. As a result, laterite contains almost no organic matter. The roots of living rain forest plants quickly absorb the nutrients released during decomposition. So, even though the vegetation may be dense, the soil itself contains few available nutrients. Most of the nutrients in a tropical rain forest are present in the plants themselves. Today, large areas of tropical rain forest are being cleared for timber and to provide land for agriculture, as shown in Figure 16. However, laterite is one of the poorest soils for agriculture. Because laterite contains little organic matter and few nutrients, it cannot nourish crops. The nutrients it does have are soon washed out by the plentiful rainwater that filters through the soil. In only a few years, the soil in a freshly cleared area may be completely useless for growing crops. Without trees or crop plants to anchor the soil and shield the ground from the full force of heavy rains, the soil erodes quickly. Figure 16 Clearing a Tropical Rain Forest in Borneo The laterite soil cannot support agriculture for more than a few years.
12 Soil Erosion Soils are just a tiny fraction of all Earth materials, yet they are a vital resource. Because soils are necessary for the growth of rooted plants, they are the foundation of the human life-support system. However, soils are among our most abused resources. The loss of fertile topsoil is a growing problem as human activities disturb more of Earth s surface. How Water Erodes Soil Soil erosion is a natural part of the constant recycling of Earth materials known as the rock cycle. Water, wind, and other agents move soil from one place to another. Every time it rains, raindrops strike the soil surface with surprising force. As Figure 17 shows, each drop acts like a tiny bomb, blasting soil particles off the surface. Water flowing across the surface then carries away the dislodged particles. Because thin sheets of water move the soil particles, this process is called sheet erosion. Figure 17 Soil Erosion by Raindrops A raindrop can splash soil particles more than a meter away from where it strikes the soil. After flowing as a thin sheet for a short distance, the water forms tiny streams called rills. As more water enters the rills, they erode the soil further, creating trenches known as gullies, like those shown in Figure 18. Although most dislodged soil particles do not move far during each rainfall, large quantities eventually make their way downslope to a stream. The stream transports these soil particles, which are now called sediment, and eventually deposits them. Figure 18 Gullies The unprotected soil in this field in southern Colombia is deeply eroded.
13 Rates of Erosion In the past, soil eroded more slowly than it does today because more land was covered by trees, grasses, and other plants. However, human activities that remove natural vegetation, such as farming, logging, and construction, have greatly accelerated erosion. Without plants, soil is more easily carried away by wind and water. Scientists can estimate the rate of erosion due to water by measuring the amount of sediment in rivers. These estimates indicate that before humans appeared, rivers carried about 9 trillion kg of sediment to the oceans each year. In contrast, the amount of sediment currently transported to the sea by rivers is about 24 trillion kg per year. Wind generally erodes soil much more slowly than water does. During a prolonged drought, however, strong winds can remove large quantities of soil from unprotected fields. That s exactly what happened during the 1930s in the part of the Great Plains that came to be known as the Dust Bowl. The rate of soil erosion depends on soil characteristics and on factors such as climate, slope, and type of vegetation. In many regions, including about one-third of the world s croplands, soil is eroding faster than it is being formed. This results in lower productivity, poorer crop quality, and a threatened world food supply. Sediment Deposition Another problem caused by excessive soil erosion is the deposition of sediment. Rivers that accumulate sediment must be dredged to remain open for shipping. As sediment settles in reservoirs, they become less useful for storing water, controlling floods, and generating electricity. Some sediments are contaminated with agricultural pesticides. When these chemicals enter a river or lake, they endanger organisms that live in or use the water, including humans. Sediments also contain soil nutrients, which may come from natural processes and from added fertilizers. Excessive nutrient levels in lakes stimulate the growth of algae and plants. This can accelerate a process that eventually leads to the early death of the lake. Controlling Erosion Although we cannot completely eliminate soil erosion, we can significantly slow it by using soil conservation measures. You have seen how a misunderstanding of the composition of rain forest soil has led to the destruction of millions of acres leaving only severely leached, unproductive land. Conservation measures include steps taken to preserve environments and protect the land. These measures include planting rows of trees called windbreaks, terracing hillsides, plowing along the contours of hills, and rotating crops. Preserving fertile soil is essential to feeding the world s rapidly growing population. Section 3 Mass Movements Key Concepts What is mass movement? What factors trigger mass movements? How do geologists classify mass movements? Vocabulary mass movement rockfall rockslide slump mudflow earthflow creep Earth s land surface consists of slopes, some steep and others very gradual. While most slopes appear stable, they are always changing. The force of gravity causes material to move downslope. The transfer of rock and soil downslope due to gravity is called mass movement. Some types of mass movement are so slow that you cannot see them. Others, such as landslides like the one illustrated in Figure 19, are very sudden.
14 Figure 19 Landslide This home in Pacific Palisades, California, was destroyed by a landslide triggered by the January 1994 Northridge earthquake. The combined actions of weathering and mass movement produce most landforms. Once weathering weakens and breaks rock apart, mass movement moves the debris downslope. There a stream usually carries it away. Stream valleys are the most common of Earth s landforms. Triggers of Mass Movements Gravity is the force behind mass movements. Several factors make slopes more susceptible to the pull of gravity. Among the factors that commonly trigger mass movements are saturation of surface materials with water, oversteepening of slopes, removal of vegetation, and earthquakes. Water Heavy rains and rapid melting of snow can trigger mass movement by saturating surface materials with water. This was the case when torrential downpours associated with Hurricane Mitch caused devastating mudflows, as shown in Figure 20. When the pores in sediment become filled with water, the particles slide past one another more easily. You can demonstrate this effect with sand. If you add water until the sand becomes slightly moist, the sand grains will stick together. However, if you add enough water to fill all the pores between the sand grains, the sand-water mixture will ooze downhill. Clay also becomes very slick when it is wet. Figure 20 Mudflow In October 1998, heavy rains from Hurricane Mitch led to massive mudflows in Central America. Formulating Hypotheses What human activities before the rains might have contributed to the mudflows? Oversteepened Slopes Loose soil particles can maintain a relatively stable slope up to a certain angle. That angle ranges from about 25 to 40 degrees, depending on the size and shape of the particles. If the steepness of a slope exceeds the stable angle, mass movements become more likely. Such slopes are said to be oversteepened. An oversteepened slope can result when a stream undercuts a valley wall or waves pound against the base of a cliff. People may also create oversteepened slopes by excavating during the construction of roads and buildings.
15 Removal of Vegetation Plants make slopes more stable because their root systems bind soil and regolith together. When plants are removed by forest fires or by human activities such as logging or farming, the likelihood of mass movement increases. An example that illustrates the stabilizing effect of plants occurred several decades ago on steep slopes near Menton, France. Farmers replaced olive trees, which have deep roots, with carnations, a more profitable but shallow-rooted crop. Planting carnations made the slopes less stable. A landslide on one of the slopes killed 11 people. Earthquakes Earthquakes are one of the most dramatic triggers of mass movements. An earthquake and its aftershocks can dislodge enormous amounts of rock and unconsolidated material. In many areas, these mass movements cause more damage than the ground vibrations themselves. The landslide shown in Figure 19 was triggered by an earthquake. Types of Mass Movements Geologists classify mass movements based on the kind of material that moves, how it moves, and the speed of movement. We ll consider five basic types of mass movement: rockfalls, slides, slumps, flows, and creep. Rockfalls A rockfall occurs when rocks or rock fragments fall freely through the air. This type of mass movement is common on slopes that are too steep for loose material to remain on the surface. Many rockfalls result from the mechanical weathering of rock caused by freeze-thaw cycles or plant roots. Rockfalls sometimes trigger other mass movements. Slides In a slide, a block of material moves suddenly along a flat, inclined surface. Slides that include segments of bedrock are called rockslides. They often occur in high mountain areas such as the Andes, Alps, and Canadian Rockies. Rockslides are among the fastest mass movements, reaching speeds of over 200 km per hour. Some rockslides, such as the one shown in Figure 21, are triggered by rain or melting snow. Figure 21 Rockslide The scar on the side of this mountain in northwestern Wyoming was made by an enormous rockslide that happened more than 75 years ago. The debris in the slide formed a dam 70 m high across the Gros Ventre River. Slumps A slump is the downward movement of a block of material along a curved surface. The material in a slump usually does not travel very fast or very far. As the block moves, its upper surface sometimes tilts backward. Slumps leave a crescent-shaped cliff just above the slump, which you can see in Figure 22. They are common on oversteepened slopes where the soil contains thick accumulations of clay.
16 Figure 22 Slump Heavy rains triggered this slump in Santa Barbara, California. Notice the crescentshaped cliff just above the slump. Flows Flows are mass movements of material containing a large amount of water, which move downslope as a thick fluid. Flows that move quickly, called mudflows, are common in semiarid mountainous regions, such as parts of southern California. In these regions, protective vegetation is sparse. A heavy downpour or rapid snowmelt can flood canyons with a mixture of soil, rock, and water. The mixture may have the consistency of wet concrete. It follows the contours of the canyon, taking large boulders and trees along with it. As you saw in Figure 20, mudflows in populated areas are very dangerous and destructive. In 1988, a massive mudflow triggered by the eruption of Nevado del Ruiz, a volcano in Colombia, killed 25,000 people. Earthflows are flows that move relatively slowly from about a millimeter per day to several meters per day. Their movement may continue for years. Earthflows occur most often on hillsides in wet regions. When water saturates the soil and regolith on a hillside, the material breaks away, forming a tongue-shaped mass like the one shown in Figure 23. Earthflows range in size from a few meters long and less than 1 m deep to over 1 km long and more than 10 m deep. Figure 23 Earthflow This small, tongue-shaped mass movement occurred on a newly formed slope along a recently built highway. Comparing And Contrasting Which other type of mass movement looks most similar to an earthflow? Creep The slowest type of mass movement is creep, which usually travels only a few millimeters or centimeters per year. One factor that contributes to creep is alternating between freezing and thawing, as Figure 24A shows. Freezing expands the water in soil, lifting soil particles at right angles to the slope. Thawing causes contraction, which allows the particles to fall back to a slightly lower level. Each freeze-thaw cycle moves the particles a short distance downhill. Because creep is so slow, you cannot observe it directly as it happens. However, the effects of creep are easy to recognize. As Figure 24B shows, creep causes structures that were once vertical to tilt downhill. Creep can also displace fences and crack walls and underground pipes.
17 Figure 24 Creep A Repeated expansion and contraction of the soil on a slope results in a gradual downhill movement of the soil. B Years of creep have caused these gravestones to tilt. Inferring In which direction is creep occurring in this photograph?
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